Energy Management

FC TecNrgy, a pioneer in fuel cell technology, specializes in advanced energy management solutions that optimize power distribution and efficiency. By integrating diverse energy sources, priority charging, flexible configurations, and advanced energy storage systems, our solutions ensure reliable, sustainable power delivery for a wide range of applications. With cutting-edge control systems and power electronics, we maximize efficiency, enable real-time monitoring, and ensure seamless transitions for uninterrupted operations. This holistic approach provides end-to-end energy management, delivering both innovation and performance in every solution.

Sustainable Energy, Smart Solutions

Power Managers

Our innovative Power Managers enable seamless integration of multiple energy sources for efficient power distribution. Designed for defense, industrial, and critical operations, this technology features universal charging and power configurations, allowing users to utilize all available energy sources in the field. Using fuel cells, hybrid batteries, solar panels, or vehicle power, our Power Managers charge devices or batteries through a network of smart cables and batteries

This smart energy management minimizes power losses and ensures highly efficient distribution, keeping essential equipment operational without interruption

Hybrid Systems

FC TecNrgy’s Hybrid Systems deliver flexible, reliable energy solutions by integrating alternative and renewable sources like Direct Methanol Fuel Cells (DMFCs), Hydrogen Fuel Cells, and Solar Energy with existing infrastructure. These systems ensure uninterrupted power in challenging remote areas while reducing reliance on traditional, polluting energy sources

At the core is the Priority Charge Manager (PCM), which optimizes multiple power sources in hybrid energy networks by integrating hydrogen and methanol fuel cells, solar power, wind energy, Battery Energy Storage Systems (BESS), inverters, grid power, and diesel generators. This ensures efficient power distribution, reduces losses, and maximizes energy efficiency for microgrids and large utilities.

Net Zero Buildings

FC TecNrgy is leading the transformation of buildings into sustainable, energy-efficient spaces with our Net Zero Buildings solutions. By integrating renewable energy sources like solar power, fuel cells, and advanced Battery Energy Storage Systems, we enable buildings to generate as much energy as they consume, promoting energy self-sufficiency and reducing carbon footprints

These structures are designed to function in both grid-tied and off-grid modes, ensuring resilience and sustainability while supporting long-term environmental objectives.

Direct Methanol Fuel Cell (DMFC)

DMFC is a type of fuel cell that uses liquid methanol as fuel. It's smaller and lighter than other fuel cell types, making it suitable for portable applications

Working Principle

Methanol is oxidized at the anode, releasing electrons that flow through an external circuit to the cathode, where they combine with oxygen to produce water

Benefits

  • High energy density
  • Liquid fuel for easy storage and handling
  • Relatively low operating temperature
  • Reduced Carbon Footprint
  • Higher Tolerance to Impurities
  • Lower Hazard Risks

Direct Methanol Fuel Cell (DMFC)

DMFC is a type of fuel cell that uses liquid methanol as fuel. It's smaller and lighter than other fuel cell types, making it suitable for portable applications

Working Principle

Methanol is oxidized at the anode, releasing electrons that flow through an external circuit to the cathode, where they combine with oxygen to produce water

Benefits

  • High energy density
  • Liquid fuel for easy storage and handling
  • Relatively low operating temperature
  • Reduced Carbon Footprint
  • Higher Tolerance to Impurities
  • Lower Hazard Risks

Direct Methanol Fuel Cell (DMFC)

DMFC is a type of fuel cell that uses liquid methanol as fuel. It's smaller and lighter than other fuel cell types, making it suitable for portable applications

Working Principle

Methanol is oxidized at the anode, releasing electrons that flow through an external circuit to the cathode, where they combine with oxygen to produce water

Benefits

  • High energy density
  • Liquid fuel for easy storage and handling
  • Relatively low operating temperature
  • Reduced Carbon Footprint
  • Higher Tolerance to Impurities
  • Lower Hazard Risks